Fleet Management

Connecting Vehicles to Cut Congestion, Improve Safety

Congress is not going to vote for reinvestment in highway infrastructure any time soon, so the next best thing is to get more out of what already is there, says Xerox chairman and CEO Ursula Burns.

The iCone is equipped with radar and cellular and satellite communications to send information about work-zone traffic to message boards upstream from the zone. All the road crew has to do is put it in place and turn it on.

"I don't believe we can use lack of funding as excuse not to get things done," Burns told information technology specialists gathered near Washington, D.C., last week for the annual meeting of ITS America. "There is huge opportunity in getting more out of less."

The three-day meeting offered a rundown of programs, some close to fruition and some on the horizon, that can improve safety, reduce congestion and make the national transportation system more efficient.

The programs are being built around "connected vehicle technology" - systems that link vehicles to each other and to the infrastructure itself.

Some connected vehicle applications already are in widespread use, such as PrePass weigh-in-motion, but others still are being tested for future deployment.

The Department of Transportation says the technology can lead to significant safety improvements. It could help drivers avoid more than 70% of all truck crashes, and 83% of light-vehicle crashes, DOT says.

The National Highway Traffic Safety Administration is taking a keen interest and aims to make a decision on regulatory standards for heavy trucks by 2014.

The agency has a pilot project under way that uses dedicated short-range communications (DSRC) in the 5.9 Gigahertz frequency range for a variety of warning systems.

The applications being tested sound warnings when there is a vehicle in the driver's blind spot, when a forward collision is imminent, if an upcoming intersection is blocked, if it is not safe to pass or if a nearby vehicle has lost control.

The University of Michigan Transportation Research Institute is almost a year into a 30-month field test involving some 2,800 connected vehicles.

The vehicles are equipped with wireless devices that transmit and receive speed and location. They also have systems to collect data on how drivers respond to the information.

Con-way Freight is one of the fleets involved in the UMTRI test, said safety director Gregory Pawelski.

The company's participation arises from its commitment to world-class safety, Pawelski said.

"We expect everyone to return home safely," he said.

Besides pre-hire screening, driver schools and training, the company invests in safety technology, he said.

The benefits are eye-opening. Pawelski said lane departure crashes are down 42%, improper lane changes down 72%, front-end collisions down 82%, unsafe speed crashes down 64% and rollovers down 58%.

Pawelski said Con-way drivers participate in the technology and look forward to new developments, even the company's current test of in-cab cameras to measure driver distraction.

"Most safety benefits come from layering technologies together," he said. "The camera will tie it together to help change driver behavior."

While 5.9 GHz appears to be the frequency of choice for connected vehicles at this stage of their development, one trucking official is not convinced that it should be the only answer.

Dan Murray, vice president of research at the American Transportation Research Institute, an arm of American Trucking Associations, said 5.9 lends itself to urban applications but may not be the best technology for other settings.

There needs to be more research on costs and use of the data that is collected, he said.

Truck Parking

A number of states are undertaking research aimed at improving the truck parking situation.

Collin Castle of the Michigan DOT described a project that will gather data on parking availability from public and private rest areas and transmit it to drivers.

The project, funded by the Federal Highway Administration, will use sensing technology and CCTV cameras at rest areas and input from truck stops to determine where space is available along sections of I-94.

The data will be integrated through the state's traffic management system and disseminated through roadside signs, the DOT website, smartphone apps and DSRC-connected vehicles.

Castle said work is under way and the infrastructure for the test should be in place by next year.

The District of Columbia is working on a system to improve parking conditions for trucks that are delivering or picking up freight in the city.

Eulois Cleckley of the DC Transportation Department said the city wants to make better use of curbside space by making sure loading zones are correctly situated and putting in place a pricing system that is easy to use.

Among the choices for payment might be a smartphone ap, a permitting system or pay-by-phone.

The city also is considering a variable pricing scheme to create incentives for off-peak delivery hours, he said.

In California, a private company, ParkingCarma, is working on expanding its car parking solution to trucks using the I-5 corridor.

In cooperation with Caltrans, the state DOT, ParkingCarma is putting together a test involving two public rest areas and six truck stops, said CEO Frederick Warner.

Information about available space will be gathered through in-road loops, radio frequency identification, video cameras and manual counting. The data will be distributed through a website as well as a cellphone ap.

Warner said he hopes to be able to offer a space reservation service, as well. His research shows that drivers will be willing to pay up to $2 a month for the service.

He said he expects the test to go live in August.

Minnesota Tests Intersection System

Sometimes simplest is best. The Minnesota DOT has been testing a system that uses loop detectors buried in the road to regulate intersection lights and improve traffic flow.

Ken Hansen, ITS project manager at MinnDOT, described a project aimed at reducing the "platooning" that occurs when car traffic piles up behind trucks as they slow for an upcoming red light.

With detectors installed 700 feet from the intersection, the agency was able to extend the light's green time so traffic could proceed safely.

Trucks involved in the test saved 158 hours a year in delay time, and up to $50,000 in operating costs, Hansen said.